Method, System and Apparatus for Cloud-Based Printing

ABSTRACT

A server includes: a memory storing printing configuration rules for interfacing with a printing system; a communications interface configured to communicate with a client device; a processor interconnected with the memory and the communications interface, the processor configured to: generate a print system network identifier mapped to the printing system, the print system network identifier configured for identifying print parameters for print jobs; receive, via the communications interface, a print request from the client device, the print request generated based on the print system network identifier and including one or more print parameters for a print job; and send a print instruction to the printing system to initiate the print job at the printing system according to the one or more print parameters, the print instruction generated according to the printing configuration rules.

BACKGROUND

Printing data from a computing device typically involves transmittingthe data to a local printer, e.g. connected directly to the computingdevice or to a local network that includes the computing device. Printresources may be inaccessible to a computing device from outside suchlocal networks, or may be accessible via multiple stages ofcommunications between the computing device and various other devices,e.g. to gain access to the local networks.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The accompanying figures, where like reference numerals refer toidentical or functionally similar elements throughout the separateviews, together with the detailed description below, are incorporated inand form part of the specification, and serve to further illustrateembodiments of concepts that include the claimed invention, and explainvarious principles and advantages of those embodiments.

FIG. 1 is a diagram illustrating cloud-based printing system.

FIG. 2 is a block diagram of certain internal hardware components of theserver of FIG. 1.

FIG. 3 is a flowchart of a method of cloud-based printing.

FIG. 4A is a flowchart of an example implementation of block 310 of themethod of FIG. 3.

FIG. 4B is a schematic diagram of the flow of data during the method ofFIG. 4A.

FIG. 5A is a flowchart of another example implementation of block 310 ofthe method of FIG. 3.

FIG. 5B is a schematic diagram of the flow of data during the method ofFIG. 5A.

FIG. 6 is a flowchart of another method of cloud-based printing.

Skilled artisans will appreciate that elements in the figures areillustrated for simplicity and clarity and have not necessarily beendrawn to scale. For example, the dimensions of some of the elements inthe figures may be exaggerated relative to other elements to help toimprove understanding of embodiments of the present invention.

The apparatus and method components have been represented whereappropriate by conventional symbols in the drawings, showing only thosespecific details that are pertinent to understanding the embodiments ofthe present invention so as not to obscure the disclosure with detailsthat will be readily apparent to those of ordinary skill in the arthaving the benefit of the description herein.

DETAILED DESCRIPTION

Examples disclosed herein are directed to a server including a memorystoring printing configuration rules for interfacing with a printingsystem; a communications interface configured to communicate with aclient device; a processor interconnected with the memory and thecommunications interface, the processor configured to: generate a printsystem network identifier mapped to the printing system, the printsystem network identifier configured for identifying print parametersfor print jobs; receive, via the communications interface, a printrequest from the client device, the print request generated based on theprint system network identifier and including one or more printparameters for a print job; and send a print instruction to the printingsystem to initiate the print job at the printing system according to theone or more print parameters, the print instruction generated accordingto the printing configuration rules.

Additional examples disclosed herein are directed to a methodcomprising: storing printing configuration rules for interfacing with aprinting system; generating a print system network identifier mapped tothe printing system, the print system network identifier configured foridentifying print parameters for print jobs; receiving a print requestfrom the client device, the print request generated based on the printsystem network identifier and including one or more print parameters fora print job; and sending a print instruction to the printing system toinitiate the print job at the printing system according to the one ormore print parameters, the print instruction generated according to theprinting configuration rules.

Further examples disclosed herein are directed to a non-transitorycomputer-readable medium storing a plurality of computer-readableinstructions executable by a processor, wherein execution of theinstructions configures the processor to: generate a print systemnetwork identifier mapped to the printing system, the print systemnetwork identifier configured for identifying print parameters for printjobs; receive, via the communications interface, a print request fromthe client device, the print request generated based on the print systemnetwork identifier and including one or more print parameters for aprint job; and send a print instruction to the printing system toinitiate the print job at the printing system according to the one ormore print parameters, the print instruction generated according toprinting configuration rules stored in a memory.

FIG. 1 depicts an example system 100 for cloud-based printing. Thesystem 100 includes a server 104, printing systems 108-1, 108-2, andclient devices 112-1, 112-2, 112-3. The printing systems 108, and theclient devices 112 are connected to the server 104 via communicationlinks 106. The system 100 enables cloud- or web-based printing, andhence the communication links 106 may utilize suitable wide areanetworks (WAN), including cellular networks and the Internet. Thecommunication links 106 may further utilize local area networks definedby one or more routers, switches, wireless access points, or the like.

The server 104 provides a cloud-based printing service so that aconnected client device 112 may print to a printing system 108 via theserver 104. More specifically, the server 104 is configured to enablecloud printing without requiring account creation or authentication. Toenable this, the server 104 maps print system network identifiers (e.g.,a uniform resource locator or URL) to each printing system 108. Theprint system network identifier is configured for identifying printparameters for print jobs. That is, print jobs may be initiated directlyusing the print system network identifier and may be processed withoutrequiring authentication by the requesting client device 112. Thus, theprint system network identifier is also configured to bypassauthentication at the server 104.

In operation, the server 104 generates at least one print system networkidentifier for each printing system 108 registered with the server 104.Each print system network identifier maps to a corresponding printingsystem 108 and is configured for identifying print parameters for theprint job. That is, the print system network identifier allows the printparameters for a print job to be specified at the client devices 112.For example, the print system network identifier may correspond to a webpage in which end users may input print parameters, submission of whichacts as a print request when received at the server 104. Alternately,the print parameters may be appended as variables to the print systemnetwork identifiers to form a print job network identifier, which actsas a print request when received at the server 104. Thus, access to theprint system network identifiers enables print requests to be directlygenerated based on the print system network identifier.

The print system network identifiers may therefore be shared ordistributed, including to third parties to reduce the number ofback-and-forth communications required between the parties. For example,in a conventional model, an end user may request and download a documentfrom a third party, and then generate a print request to print thedocument. In the present example, the end user may provide the printsystem network identifier to the third party. The third party may thengenerate the print request to print the document using the print systemnetwork identifier directly, and without the end user downloading thedocument. Advantageously, since the print request is generated using theprint system network identifier directly, the third party may bypassauthentication requirements with the server 104 and proceed to generatethe print request.

The printing systems 108 may include any suitable systems configured tocommunicate with the server 104 via the communication links 106 and toprint documents or other data. For example, the printing system 108-1includes a printer 109-1 and a separate computing device 110-1, such asa laptop computer, a desktop computer, a print server, or the like,which is interconnected with the printer 109-1 to bridge between theprinter 109-1 and network communications with the server 104. Theprinting system 108-2 includes a cloud-enabled printer 109-2 having anintegrated printer communications interface 110-2 to allow the printer109-2 to communicate directly with the server 104.

The client devices 112 may be computing devices, such as desktopcomputers, laptop computers, mobile devices, kiosks, other servers,tablets, or other suitable computing devices. In particular, the clientdevices 112 are configured to communicate with the server 104 via thecommunication links 106 to initiate print jobs at one of the printingsystems 108. The client devices 112 include suitable hardware (e.g.,including communication interfaces, processors, memories, userinterfaces, and the like) to enable the functionality described herein.For example, the client devices 112 may implement a web browserapplication to access the print system network identifier and to allowthe user to input print parameters for a particular print job.

Referring to FIG. 2, the server 104, including certain internalcomponents, is shown in greater detail. The server 104 includes aprocessor 200 interconnected with a non-transitory computer-readablestorage medium, such as a memory 204. The memory 204 includes acombination of volatile memory (e.g. Random Access Memory or RAM) andnon-volatile memory (e.g. read only memory or ROM, Electrically ErasableProgrammable Read Only Memory or EEPROM, flash memory). The processor200 and the memory 204 may each comprise one or more integratedcircuits.

The memory 204 stores computer-readable instructions for execution bythe processor 200. In particular, the memory 204 stores a controlapplication 208 which, when executed by the processor 200, configuresthe processor 200 to perform various functions discussed below ingreater detail and related to the printing operation of the server 104.The application 208 may also be implemented as a suite of distinctapplications. The processor 200, when so configured by the execution ofthe application 208, may also be referred to as a controller 200.

Those skilled in the art will appreciate that the functionalityimplemented by the processor 200 may also be implemented by one or morespecially designed hardware and firmware components, such as afield-programmable gate array (FPGAs), application-specific integratedcircuits (ASICs) and the like in other embodiments. In an embodiment,the processor 200 may be, respectively, a special purpose processorwhich may be implemented via dedicated logic circuitry of an ASIC, anFPGA, or the like in order to enhance the processing speed of thedimensioning operations discussed herein.

The memory 204 also includes a repository 212 storing rules and data forprinting operations. For example, the repository 212 may define, foreach printing system 108, a print system network identifier, printingconfiguration rules, and other data pertaining to the printing system108 (e.g., a nickname, print job thresholds, or the like). The printingconfiguration rules may include driver interfaces, communicationprotocols for sending print parameters and print data, or the like. Inparticular, each printing system 108 may have different printingconfiguration rules, and hence the repository 212 may define appropriateprinting configuration rules for each printing system 108.

The server 104 also includes a communications interface 216interconnected with the processor 200. The communications interface 216includes suitable hardware (e.g. transmitters, receivers, networkinterface controllers and the like) allowing the server 104 tocommunicate with other computing devices—such as the printing systems108 and the client devices 112—via the links 106. The specificcomponents of the communications interface 216 are selected based on thetype of network or other links that the server 104 is to communicateover. The server 104 can be configured, for example, to communicate withthe client devices 112 to receive print requests, and to send printinstructions to the printing systems 108.

The processor 200 may also be connected to one or more input and/oroutput devices 224. The input devices 224 can include one or morekeyboards, mice, touch-sensitive display screens or the like. The outputdevices 224 can further include one or more display screens, soundgenerators, or the like for providing output or feedback to an operator.

The functionality of the server 104, as implemented via execution of theapplications 208 by the processor 200 will now be described in greaterdetail, with reference to FIG. 3. FIG. 3 illustrates a method 300 ofcloud-based printing, which will be described in conjunction with itsperformance in the system 100, and in particular, by the server 104,with reference to the components illustrated in FIGS. 1 and 2. In otherexamples, the method 300 may be performed in other suitable systems.

At block 305, the server 104 generates a print system network identifiercorresponding to each of the printing systems 108 associated with theserver 104.

For example, the server 104 may host a cloud-printing service availableat the network identifier “print.com”. When the printing system 108-1 isregistered with the cloud-printing service hosted by the server 104, theserver 104 may generate a print system network identifier“print.com/printer108-1” mapped to the printing system 108-1. Similarly,when the printing system 108-2 is registered with the cloud-printingservice hosted by the server 104, the server 104 may generate anotherprint system network identifier “print.com/printer108-2” mapped to theprinting system 108-2. In some examples, network identifier may includea token to map to a given printing system (i.e., “printer108-1” or“printer108-2” in the present examples) which is sufficiently long, orhas a sufficient number of bytes such that randomly accessing saidnetwork identifier is computationally hard. The print system networkidentifiers may thus serve to identify the appropriate printing system,as will be described further herein. The print system networkidentifiers are also configured for identifying print parameters forprint jobs, as will be described further below. The server 104 may thenstore associations between the print system network identifiers, theprinting systems, and the printing configuration rules for interfacingwith the printing systems.

In some examples, at block 305, the server 104 may further provide theprint system network identifiers to the client devices 112. For example,the print system network identifiers may be provided at a central webpage (e.g., at “print.com/printer-list”) for look-up by the clientdevices 112. Accordingly, when a user operating the client device 112-2uses a web browser application to access “print.com/printer-list”, theserver 104 may provide the corresponding web page, listing the printingsystems 108 for selection. In some examples, users may be required toauthenticate or log in prior to viewing the list of printing systems 108available for selection. The printing systems 108 may further beassociated with a nickname and/or a description to allow the end usersto differentiate the printing systems 108-1 and 108-2. For example, theprinting system 108-1 may be associated with the description “black andwhite printer” while the printing system 108-2 may be associated withthe description “color printer”. The listing may further include astatus indicators and other printing system status information for eachof the printing systems 108. For example, if the computing device 110-1is offline, the printing system 108-1 may be unavailable. Other printingsystem status information may include, for example, a current queuelength for documents queued to be printed.

The user may then select a printing system 108 at the client device112-2, which generates a network identifier request. Responsive to thenetwork identifier request, the server 104 may retrieve and provide thestored print system network identifier of the selected printing systems108 and present it on the web page.

In other examples, rather than retrieving and providing the stored printsystem network identifier of the selected printing systems 108,responsive to each network identifier request, the server 104 maygenerate a new print system network identifier mapped to the printingsystem for each subsequent network identifier request. Thus, forexample, new print system network identifier for the printing system108-1 may include “print.com/printer108-1/req2”,“print.com/printer108-1/req3” and so on. The new print system networkidentifiers similarly identify the corresponding printing system 108 andare configured for identifying print parameters for print jobs. The newprint system network identifiers are further configured to bypassauthentication at the server 104. Thus, the server 104 may map manyprint system identifiers to each printing system 108.

Other criteria for generating new print system network identifiers arealso contemplated. For example, the server 104 may generate new printsystem network identifiers based on distinct user identifiers, internetprotocol (IP) addresses, or other suitable criteria. For example, usersmay log in or otherwise be authenticated in the system 100, and hencethe server 104 may assign a unique print system network identifier toeach user identifier. In further examples, rather than retrieving andproviding the stored print system network identifier for the selectedprinting system 108, the web page listing the printing systems 108 mayalso directly present the print system network identifiers correspondingto the listed printing systems 108.

At block 310, the server 104 receives a print request, for example fromthe client device 112. Specifically, the print request is generatedbased on the print system network identifier and includes one or moreprint parameters for a print job. For example, the print system networkidentifier may correspond to a web page configured to receive the one ormore print parameters for the print job. In particular, submission ofthe print parameters at the web page may act as the print request to theserver 104. In other examples, the print request may correspond to aprint job network identifier which includes the one or more printparameters appended to the print system network identifier.

For example, referring to FIGS. 4A and 4B an example method 400 ofreceiving a print request and a schematic of the method 400 aredepicted. In particular, in the example method 400, the print systemnetwork identifier corresponds to a web page configured to receive theone or more print parameters for the print job.

At block 405, the server 104 receives a request 408 to resolve the printsystem network identifier. In particular, a user of the client device112-2 may use a web browser application to access the network identifier“print.com/printer108-2”. Accordingly, the client device 112-2 generatesthe request 408 to resolve the URL. According to standard communicationprotocols, the request 408 may be sent to the server 104, which hoststhe network identifier “print.com”, to be resolved.

At block 410, the server 104 resolves the request 408, and provides, tothe client device 112-2, a web page 412 corresponding to the networkidentifier “print.com/printer108-2”. The web page 412 is configured toreceive print parameters for the print job. For example, the web page412 may be a form or the like, to allow the user to specify the numberof copies of the document and other parameters of the print job. Toidentify the document to be printed, the web page 412 may acceptuploads, or another network identifier (e.g., a URL) indicating the pathof the document.

At block 415, the server 104 receives, via a submission request at theweb page 412, a print request 418 including the one or more parametersinput at the web page 412 for the print job. For example, once the userhas input the print parameters at the web page 412, the user may selecta “submit” button on the web page 412 to initiate the submissionrequest. Thus, the print request 418 including the one or moreparameters is submitted to the server 104. In some examples, aftersuccessfully receiving the print request 418, the server 104 may returna status indicator 420 to the client device 112-2. For example, thestatus indicator 420 may simply indicate the success or failure oftransmission of the print request 418 to the server 104. In otherexamples, the status indicator 420 may be dynamic, and may be updatedaccording to the progress of the print job (e.g., the print job is beingtransmitted to the printer, the printer is printing, the print job iscomplete).

Turning now to FIGS. 5A and 5B, another example method 500 of receivinga print request and a schematic of the method 500 are depicted. Inparticular, in the example method 500, the print parameters are to beappended to the print system network identifier to define a print jobnetwork identifying forming the print request.

At block 505, the server 104 receives a request 508 to resolve a printjob network identifier. In particular, the client device 112-1 maygenerate the print job network identifier by taking the print systemnetwork identifier and appending print parameters as variables to theprint system network identifier. The print parameters may specify, forexample, the number of copies of the document (e.g., “num=2”) and otherparameters of the print job. To identify the document to be printed, anembedded network identifier may be included to indicate the path of thedocument (e.g., “doc=docpath”). The print system network identifier andthe parameters may thus be appended to form the print job networkidentifier “print.com/printer108-2/?num=2&doc=docpath”. The clientdevice 112-1 may then generate the request 508 to resolve the URL.According to standard communication protocols, the request 508 may besent to the server 104, which hosts the network identifier “print.com”,to be resolved.

At block 510, the server 104 resolves the request 508 and extracts theprint system network identifier and print parameters 512 from the printjob network identifier. The request 508 to resolve the print job networkidentifier thus acts as the print request for a print job having theprint parameters 512. In some examples, after successfully resolving therequest 508 and extracting the print parameters 512 for the print job,the server 104 may return a status indicator 520 to the client device112-1. For example, the status indicator 520 may indicate the success orfailure of the resolution of the request 508 and the extraction of theprint parameters 512. In other examples, the status indicator 520 may bedynamic, and may be updated according to the progress of the print job(e.g., the print job is being transmitted to the printer, the printer isprinting, the print job is complete).

In some examples, the server 104 may accommodate both the methods 400and 500 to receive print requests. For example, users operating themobile computing device 112-2, or the desktop computer 112-3 may use themethod 400 as it provides a more user-friendly interface to input printparameters and generate the print request. Thus, a user desiring toprint a document locally saved at the client devices 112-2 or 112-3 mayaccess the web page corresponding to the print system network identifier“print.com/printer108-2”, upload the document, and input the printparameters at the web page to generate the print request.

In contrast, the server 112-1 may automatically interface with theserver 104, and hence it may be programmatically simpler to append printparameters to the print system network identifier to form a print jobnetwork identifier to generate the print request. For example, a usermay desire to print a packaging label from “stamps.com”, hosted at theserver 112-1. Rather than downloading the packaging label from“stamps.com” and uploading the packaging label to the web pagecorresponding to “print.com/printer108-2”, the user may provide to theserver 112-1 the print system network identifier“print.com/printer108-2”. In some examples, the user may further provideto the server 112-1 print parameters for the print job. The server 112-1may then translate the print parameters and the network identifier forthe packaging label into suitable variables to be appended to the printsystem network identifier to form the print job network identifier“print.com/printer108-2/?num=2&doc=docpath” for submission to the server104 to generate the print request.

Returning now to FIG. 3, at block 315, the server 104 generates andsends a print instruction to the appropriate printing system 108. Inparticular, the server 104 generates the print instruction according tothe printing configuration rules stored in the memory 204. The printinstruction initiates the print job according to the print parametersreceived with the print request at block 310. In some examples, duringor after the printing system 108 is executing the print job, the server104 may receive a status indicator from the printing system 108 and maypass the status indication along to the requesting client device 112.

In some examples, prior to generating the print instruction, the server104 may perform one or more checks to ensure that print job thresholdshave not been exceeded. For example, referring to FIG. 6, an examplemethod 600 of cloud-based printing including a check of print jobthresholds. The method 600 is similar to the method 300, and like blocksare similarly numbered.

In particular, at block 605, the server 104 generates a print systemnetwork identifier. At block 610, the server 104 receives a printrequest from a client device 112, for example, by methods 400 or 500.

Prior to generating the print instruction, at block 612, the server 104checks whether a print job threshold has been exceeded. For example, theserver 104 may maintain, in the memory 204, a count of print jobsrequested by an IP address over a predefined time interval (e.g., numberof print jobs requested within the past 10 hours, 24 hours, 7 days, orthe like). To reduce misuse of the system, the server 104 may comparethe count of print jobs requested by the IP address to a thresholdnumber of print jobs for the predefined time interval. When the countexceeds the threshold number of print jobs, the determination at block612 is affirmative, and the server 104 proceeds to block 620. When thecount does not exceed the threshold number of print jobs, thedetermination at block 615 is negative and the server 104 proceeds toblock 615. In other examples, the server 104 may alternately oradditionally implement other criteria for managing print jobs.

At block 615, the server 104 generates and sends the print instructionbased on the printing configuration rules and the print parameters.

At block 620, the server 104 disallows the print request and any furtherprint jobs from the IP address. The server 104 may return a notificationto the client device, for example, indicating that the maximum number ofprint jobs for the predefined time interval has been reached.

In the foregoing specification, specific embodiments have beendescribed. However, one of ordinary skill in the art appreciates thatvarious modifications and changes can be made without departing from thescope of the invention as set forth in the claims below. Accordingly,the specification and figures are to be regarded in an illustrativerather than a restrictive sense, and all such modifications are intendedto be included within the scope of present teachings.

The benefits, advantages, solutions to problems, and any element(s) thatmay cause any benefit, advantage, or solution to occur or become morepronounced are not to be construed as a critical, required, or essentialfeatures or elements of any or all the claims. The invention is definedsolely by the appended claims including any amendments made during thependency of this application and all equivalents of those claims asissued.

Moreover in this document, relational terms such as first and second,top and bottom, and the like may be used solely to distinguish oneentity or action from another entity or action without necessarilyrequiring or implying any actual such relationship or order between suchentities or actions. The terms “comprises,” “comprising,” “has”,“having,” “includes”, “including,” “contains”, “containing” or any othervariation thereof, are intended to cover a non-exclusive inclusion, suchthat a process, method, article, or apparatus that comprises, has,includes, contains a list of elements does not include only thoseelements but may include other elements not expressly listed or inherentto such process, method, article, or apparatus. An element proceeded by“comprises . . . a”, “has . . . a”, “includes . . . a”, “contains . . .a” does not, without more constraints, preclude the existence ofadditional identical elements in the process, method, article, orapparatus that comprises, has, includes, contains the element. The terms“a” and “an” are defined as one or more unless explicitly statedotherwise herein. The terms “substantially”, “essentially”,“approximately”, “about” or any other version thereof, are defined asbeing close to as understood by one of ordinary skill in the art, and inone non-limiting embodiment the term is defined to be within 10%, inanother embodiment within 5%, in another embodiment within 1% and inanother embodiment within 0.5%. The term “coupled” as used herein isdefined as connected, although not necessarily directly and notnecessarily mechanically. A device or structure that is “configured” ina certain way is configured in at least that way, but may also beconfigured in ways that are not listed.

It will be appreciated that some embodiments may be comprised of one ormore specialized processors (or “processing devices”) such asmicroprocessors, digital signal processors, customized processors andfield programmable gate arrays (FPGAs) and unique stored programinstructions (including both software and firmware) that control the oneor more processors to implement, in conjunction with certainnon-processor circuits, some, most, or all of the functions of themethod and/or apparatus described herein. Alternatively, some or allfunctions could be implemented by a state machine that has no storedprogram instructions, or in one or more application specific integratedcircuits (ASICs), in which each function or some combinations of certainof the functions are implemented as custom logic. Of course, acombination of the two approaches could be used.

Moreover, an embodiment can be implemented as a computer-readablestorage medium having computer readable code stored thereon forprogramming a computer (e.g., comprising a processor) to perform amethod as described and claimed herein. Examples of suchcomputer-readable storage mediums include, but are not limited to, ahard disk, a CD-ROM, an optical storage device, a magnetic storagedevice, a ROM (Read Only Memory), a PROM (Programmable Read OnlyMemory), an EPROM (Erasable Programmable Read Only Memory), an EEPROM(Electrically Erasable Programmable Read Only Memory) and a Flashmemory. Further, it is expected that one of ordinary skill,notwithstanding possibly significant effort and many design choicesmotivated by, for example, available time, current technology, andeconomic considerations, when guided by the concepts and principlesdisclosed herein will be readily capable of generating such softwareinstructions and programs and ICs with minimal experimentation.

The Abstract of the Disclosure is provided to allow the reader toquickly ascertain the nature of the technical disclosure. It issubmitted with the understanding that it will not be used to interpretor limit the scope or meaning of the claims. In addition, in theforegoing Detailed Description, it can be seen that various features aregrouped together in various embodiments for the purpose of streamliningthe disclosure. This method of disclosure is not to be interpreted asreflecting an intention that the claimed embodiments require morefeatures than are expressly recited in each claim. Rather, as thefollowing claims reflect, inventive subject matter lies in less than allfeatures of a single disclosed embodiment. Thus the following claims arehereby incorporated into the Detailed Description, with each claimstanding on its own as a separately claimed subject matter.

1. A server comprising: a memory configured to store printingconfiguration rules for interfacing with a printing system; acommunications interface; a processor interconnected with the memory andthe communications interface, the processor configured to: generate aprint system network identifier mapped to the printing system, the printsystem network identifier configured for identifying print parametersfor print jobs; receive, via the communications interface, a printrequest, the print request generated based on the print system networkidentifier and including one or more print parameters for a print job;and send a print instruction to the printing system to initiate theprint job at the printing system according to the one or more printparameters, the print instruction generated according to the printingconfiguration rules.
 2. The server of claim 1, wherein the print systemnetwork identifier corresponds to a web page configured to receive theone or more print parameters for the print job.
 3. The server of claim2, wherein, to receive the print request, the processor is configuredto: receive a request to resolve the print system network identifier;provide, to a client device via the communication interface, the webpage to receive the one or more print parameters for the print job; andreceive, via a submission request at the web page by the client device,the print request including the one or more print parameters for theprint job.
 4. The server of claim 1, wherein the print requestcorresponds to a print job network identifier, the print job networkidentifier including the one or more print parameters appended to theprint system network identifier.
 5. The server of claim 4, wherein, toreceive the print request, the processor is configured to: receive arequest to resolve the print job network identifier; and extract, fromthe print job network identifier, the print system network identifierand the one or more print parameters for the print job.
 6. The server ofclaim 1, wherein the processor is further configured to: receive, from arequesting device, a network identifier request for the printing system;and responsive to the network identifier request, provide, to therequesting device, the print system network identifier.
 7. The server ofclaim 6, wherein the processor is further configured to: receive asubsequent network identifier request for the printing system; generatea new print system network identifier mapped to the printing system, thenew print system network identifier configured for identifying printparameters for print jobs; and responsive to the subsequent networkidentifier request, provide the new print system network identifier. 8.The server of claim 1, wherein the processor is further configured to:maintain, in the memory, a count of print jobs requested by an internetprotocol address over a predefined time interval; and when the countexceeds a threshold number of print jobs for the predefined timeinterval, disallow print requests from the internet protocol address. 9.A method comprising: storing printing configuration rules forinterfacing with a printing system; generating a print system networkidentifier configured to map to the printing system, the print systemnetwork identifier configured for identifying print parameters for printjobs; receiving a print request, the print request generated based onthe print system network identifier and including one or more printparameters for a print job; and sending a print instruction to theprinting system to initiate the print job at the printing systemaccording to the one or more print parameters, the print instructiongenerated according to the printing configuration rules.
 10. The methodof claim 9, wherein the print system network identifier corresponds to aweb page configured to receive the one or more print parameters for theprint job.
 11. The method of claim 10, wherein receiving the printrequest comprises: receiving a request to resolve the print systemnetwork identifier; providing the web page to receive the one or moreprint parameters for the print job; and receiving, via a submissionrequest at the web page by the client device, the print requestincluding the one or more print parameters for the print job.
 12. Themethod of claim 9, wherein the print request corresponds to a print jobnetwork identifier, the print job network identifier including the oneor more print parameters appended to the print system networkidentifier.
 13. The method of claim 12, wherein receiving the printrequest comprises: receiving a request to resolve the print job networkidentifier; and extracting, from the print job network identifier, theprint system network identifier and the one or more print parameters forthe print job.
 14. The method of claim 9, further comprising: receiving,from a requesting device, a network identifier request for the printingsystem; and responsive to the network identifier request, providing, tothe requesting device, the print system network identifier.
 15. Themethod of claim 14, further comprising: receiving a subsequent networkidentifier request for the printing system; generating a new printsystem network identifier mapped to the printing system, the new printsystem network identifier configured for identifying print parametersfor print jobs; and responsive to the subsequent network identifierrequest, providing the new print system network identifier.
 16. Themethod of claim 9, further comprising: maintaining a count of print jobsrequested by an internet protocol address over a predefined timeinterval; and when the count exceeds a threshold number of print jobsfor the predefined time interval, disallowing print requests from theinternet protocol address.
 17. A non-transitory computer-readable mediumstoring a plurality of computer-readable instructions executable by aprocessor, wherein execution of the instructions configures theprocessor to: generate a print system network identifier mapped to theprinting system, the print system network identifier configured foridentifying print parameters for print jobs; receive a print request,the print request generated based on the print system network identifierand including one or more print parameters for a print job; and send aprint instruction to the printing system to initiate the print job atthe printing system according to the one or more print parameters, theprint instruction generated according to printing configuration rulesstored in a memory.
 18. The non-transitory computer-readable medium ofclaim 17, wherein the processor is further to: receive a request toresolve the print system network identifier, wherein the print systemnetwork identifier corresponds to a web page configured to receive theone or more print parameters for the print job; provide the web page toreceive the one or more print parameters for the print job; and receive,via a submission request at the web page by the client device, the printrequest including the one or more print parameters for the print job.19. The non-transitory computer-readable medium of claim 17, wherein theprocessor is further to: receive a request to resolve a print jobnetwork identifier, wherein the print job network identifier correspondsto the print request, the print job network identifier including the oneor more print parameters appended to the print system networkidentifier; and extract, from the print job network identifier, theprint system network identifier and the one or more print parameters forthe print job.
 20. The non-transitory computer-readable medium of claim17, wherein the processor is further to: receive, from a requestingdevice, a network identifier request for the printing system; andresponsive to the network identifier request, provide, to the requestingdevice, the print system network identifier.
 21. The server of claim 1,wherein the communication interface is configured to communicate with aclient device, and the client device is configured to provide the printrequest.